LINEATOR. Advanced Universal Harmonic Filter

R International Inc. LINEATOR Patented Revolutionary New Reactor esign Advanced Universal Harmonic Filter Wide Spectrum Harmonic Filter for treatment of all harmonics generated by 3-phase diode or thyristor bridge rectifiers Frees up system capacity p c y by y restoring g VS to near unity power factor The most energy efficient harmonic solution s for VS`s s Low capacitive reactance ensures generator compatibility Meets harmonic limits for both land and marine VS applications

18-Pulse Performance from standard 6-Pulse Variable Speed rives Up to 3% more energy efficient than 18-Pulse solutions Will meet IEEE 519 standard for both current and voltage distortion ABS Type Approved for marine applications Advanced Universal Harmonic Filter (AUHF) The evolution of microproccessor based power electronic Variable Speed rives (VS) has progressed very rapidly over the past 20 years. With this growth has come concern over the level of current harmonics generated by these nonlinear loads. Harmonic currents increase losses, overheat electrical equipment and interact with the distribution system impedances causing voltage distortion which can have a detrimental effect on all equipment connected to the system. Present methods of harmonic treatment (line reactors, multipulse systems, tuned or broadband passive filters, active filters and active-front-end drives) are often very large, unreliable, moderately effective, inefficient or too expensive. The LINEATOR Advanced Universal Harmonic Filter (AUHF) is a revolutionary advance in the area of passive harmonic mitigation. No other device on the market can meet the stringent limits of IEEE Std 519 at an equivalent efficiency, size and cost. When your application calls for a truly cost effective harmonic solution, the LINEATOR AUHF is the logical choice. It provides Engineers with a standard off-the-shelf solution for what used to be a very challenging engineering problem. Features Wide Spectrum Harmonic Filter treats all major harmonics generated by VS s and other 3-phase rectifier loads Saves energy by reducing upstream harmonic losses while operating at >99% efficiency Guaranteed to meet IEEE Std 519 for both current and voltage distortion at the input terminals of the LINEATOR Total emand istortion (T) of the current at the LINEATOR input terminals will not exceed the limits as defined in Table 10.3 of IEEE Std 519 Compatible with engine driven generators thanks to the extremely low capacitive reactance, even at no load Low capacitive reactance also eliminates the need for capacitor switching contactors (contactors are available upon request) Power factor 0.95 leading to 0.98 lagging over the normal operating range (40 to 100% load) Will not resonate with other power system components or attract line side harmonics Suppresses overvoltages caused by commutation notching, capacitor switching and other fast changing loads Removal of harmonics improves overall system power factor Suitable for application on multiple VS s provided only VS s are connected Reduces conducted RF interference generated by VS Models available for AC rives and C rives or other controlled rectifiers

Apply LINEATOR anywhere Variable Speed rives and 6-Pulse Rectifiers are used Oil and Gas industry Water and Waste Water Irrigation systems HVAC systems Mining operations Marine vessels Printing presses Elevators and escalators. Pulp and paper processing Other applications include: Induction furnaces Industrial rectifiers. Welding operations Advantages of the LINEATOR over other Passive Filters The LINEATOR is a purely passive device consisting of a revolutionary new inductor combined with a relatively small capacitor bank. It's innovative design achieves reduction of all the major harmonic currents generated by VS's and other similar 3-phase, 6-pulse rectifier loads. The resulting ITH is reduced to <8% and often as low as 5%. Although referred to as a filter, the LINEATOR exhibits none of the problems that plague conventional filters. Harmonic istortion Reduction The filtering effectiveness of a trap filter is dependent upon the amount of harmonics present at untuned frequencies as well as the residual at the tuned frequency. To obtain performance better than 15% ITH, multiple tuned branches are often required. Other broadband filters require relatively large capacitor banks (2 to 3 times more than Lineator) to achieve reasonable performance. Harmonics from other sources As a parallel connected device, the conventional trap filter has no directional properties. It therefore, can easily be overloaded by attracting harmonics from upstream non-linear loads. The LINEATOR, on the other hand, will present a high impedance to line side harmonics eliminating the possibility of inadvertent importation and overloading. System Resonance At frequencies below its tuned frequency, a conventional filter will appear capacitive. This capacitance has the potential of resonating with the power systems natural inductance. When a filter is tuned to a higher order harmonic, such as the 11th, it could easily resonate at a lower harmonic frequency, such as the 5th or 7th. The natural resonance frequency of the LINEATOR is below that of any predominant harmonic, therefore inadvertent resonance is avoided. Capacitive Reactance and Leading Power Factor The large capacitor banks in trap filters and competing broadband filters present a high capacitive reactance to the system, especially under light loads. On weak power systems, this can raise voltages or cause excitation control problems in generator applications. To address this, some filter manufacturers offer mechanisms for switching out the capacitors under light loads, increasing cost and complexity. This is not necessary for the LINEATOR because even under no load conditions, it s capacitive reactance (kvar) remains below 15% of its kva rating. This ensures compatibility with engine generators, without the need to switch out capacitors. Competitor Filter kvar Curve (Typical) LINEATOR AUHF kvar Curve (Typical) Acceptable Operating Range Generator Reactive Power Capability Curve

Performance Compare Performance! The LINEATOR outperforms all other forms of VS harmonic solutions. By choosing the LINEATOR you have selected a filter that: performs in Real World environments even with background voltage distortion and voltage imbalance lowers operating costs by being highly efficient is compatible with engine generators and incorporates a low capacitive reactance design has a simple and compact design to reduce footprint and ensure reliability can be computer modeled to provide up front assurance of meeting harmonic limit standards such as IEEE Std 519, ABS and other marine certifying bodies is factory performance tested under actual VS loading Outperforms 18-P Solutions Efficiency Comparison The unique design of the AUHF produces extremely low losses. It s operating efficiency therefore is much higher than competitive filters. The graphs below show typical losses and efficiencies for AUHF and two competitors. (AUHF is available in sizes up to 3500HP. Since competitor maximum sizes are only 600HP and 900HP, the chart range has been set at 1000HP) FL Losses (W) Efficiency at FL 6000 5000 4000 3000 2000 1000 0 0 500 1000 Filter Size (HP) 100% 99% 98% 97% 96% Harmonic Filter Comparison - Typical Losses Lineator AUHF Competitor1 Competitor2 Harmonic Filter Comparison - Efficiency 95% 0 500 1000 Filter Size (HP) Lineator AUHF Competitor1 Competitor2 Improves VS Performance ITH = 81% VS Input Current Waveform and Spectrum with no reactor. ITH = 29% VS Input Current Waveform and Spectrum with AC reactor. ITH = 4.6% VS Input Current Waveform and Spectrum with LINEATOR AUHF. As background voltage distortion increases, the harmonic mitigating performance of the 18-Pulse VS degrades much quicker than the 6-Pulse / LINEATOR combination. This demonstrates that the LINEATOR AUHF will not attract harmonic currents as other non-linear loads distort the applied voltage waveform. LINEATOR is the only harmonic solution that guarantees performance even in heavily distorted environments. There is little degradation in harmonic mitigating performance of the 6-Pulse / LINEATOR combination as voltage imbalance increases. The 18-Pulse solution, on the other hand, degrades dramatically because harmonic cancellation due to phase shifting becomes much less effective with 3-phase voltage imbalance. The 6-Pulse VS / LINEATOR combination has 2% to 3% higher efficiency than the 18-Pulse solution over the entire operating range. (Efficiency shown is for a system that includes motor/gen set load, VS, and harmonic mitigation equipment). When compared to an 18-Pulse VS, a 400HP AUHF/VS will save more than $3,000 in annual operating costs when averaging 75% loading at $0.07/kWHr.

H&E & LAB The Harmonics & Energy (H&E) Lab at MIRUS International Inc. provides the unique ability to test our products under real world non-linear load conditions. We also conduct compatibility testing with all major VS manufacturers' products to ensure a trouble-free installation. Every LINEATOR is factory tested under VS load to ensure our performance guarantee ante is met. No other manufacturer urer provides this level of testing ting whether e they offer a passive filter, multi-pulse lse or active solution. on. SOLV Simulation of LINEATOR / VF MIRUS offers proprietary software called Simulation of LINEATOR / VF (SOLV). SOLV is a powerful and unique computer simulation program that will calculate current and voltage distortion levels based on your load requirements. By simply entering some basic information about your source and VS system, you can generate very useful reports such as, an IEEE 519 Compliance Report. In addition to the accurate reports, you can print a single line representation of your system along with voltage and current waveforms and spectrums. MIRUS' SOLV will help you find the right solution for your VS application without the need of a costly harmonic study. It can be downloaded at mirusinternational.com 'Performance Guarantee' MIRUS guarantees that the LINEATOR AUHF will perform as advertised to reduce harmonic distortion caused by AC Variable Speed rives and other non-linear loads equipped with 3-phase, 6-pulse, diode bridge rectifiers. A properly selected and installed LINEATOR will: Reduce Current Total Harmonic istortion (ITH), measured at the LINEATOR input terminals at full load, to: (i) <8% when background voltage distortion is <5% and voltage (ii) imbalance is <3% <5% when short circuit ratio (Isc/IL), as defined by IEEE Std 519, is <20 and when background voltage distortion is <0.5% and voltage imbalance is <1% (iii) Reduce Current Total emand istortion (IT), measured at the LINEATOR input terminals over its entire operating range, to levels defined in Item (i) above. IT is defined as the ratio of ITH divided by the full load current (peak demand current) of the LINEATOR. (iv) Minimize the contribution to Voltage Harmonic istortion of all VS s equipped with the LINEATOR to <5% total and <3% for individual harmonics, as defined by IEEE Std 519-1992. (v) NOT become overloaded by other upstream harmonic sources. (vi) NOT resonate with other power system components. (vii) NOT have compatibility problems with engine generator sets properly sized for the load.

General Specifications: HP / kw RATING: Available for motor/drive system sizes up to 3500HP / 2600kW VOLTAGE: Standard voltages up to 690V, 3-phase FREQUENCY: 50 or 60Hz OVERLOA CAPABILITY: Suitable for overload of 150% for 60 seconds every 10 minutes HARMONICS TREATE: 5th, 7th, 11th, 13th,... K-FACTOR SUITABILITY: Up to 20 INPUT K-FACTOR: Reduced to <1.5 INPUT CURRENT ISTORTION: <8% at full load NO LOA CAPACITIVE REACTANCE (kvar) LEVELS: 5 to 75HP 15 to 20% 100 to 3500HP 10 to 15% EFFICIENCY: >99% ELEVATION: 3300ft [1000m] above sea level VENTILATION: Convection air cooled ENCLOSURE: NEMA 3R [IP23] Paint: Polyester powder coated Color: ANSI 61 Grey OPTIONS: Nema 3R [IP23] Enhanced ABS, NV or Lloyds Certification Typical LINEATOR Applications Standalone VS System Input LINEATOR AUHF Input VS VS System with Bypass* Input VS Multiple VS System LINEATOR AUHF VS VS LINEATOR AUHF VS * When the VS requires a bypass, the LINEATOR must also be bypassed as shown. Rating Tables: (type Lineator) [1] Motor Size Lineator Rating 208V (50 or 60Hz), 240V (50Hz) 400, 440V (50Hz) Input Amps (3-Phase) Standard Enclosure Enhanced Enclosure Standard Enclosure Enhanced Enclosure HP kw 208V 220/240V 380/400V 415/440V Output Case Weight Case Weight Case Weight Case Weight kw Style lbs [kg] Style lbs [kg] Style lbs [kg] Style lbs [kg] 5 4 14 13 8 7 4.5 SU1 65 [30] SU1-E 75 [34] 58 [26] 68 [31] 7.5 5.5 20 18 11 10 6.3 76 [35] 86 [39] SU1 67 [30] SU1-E 77 [35] 10 7.5 27 24 14 13 8.5 80 [36] 80 [36] 78 [35] 88 [40] 15 11 40 36 21 19 13 SU2 117 [53] SU2-E 127 [58] 90 [41] 100 [45] 20 15 53 48 28 25 17 138 [63] 148 [67] 118 [54] SU2-E 128 [58] 25 18.5 66 60 35 32 21 154 [70] 164 [74] SU2 130 [59] 140 [64] 30 22 79 72 42 38 25 189 [86] SU3-E 199 [90] 142 [65] 152 [69] 40 30 105 95 55 51 34 SU3 253 [115] 263 [119] 154 [70] 164 [74] 50 37.5 131 119 69 63 42 275 [125] 333 [151] 186 [84] SU3-E 196 [88] 60 45 158 143 83 76 51 315 [143] MT2-E 337 [153] SU3 218 [99] 228 [103] 75 55 196 178 103 95 63 325 [148] 399 [181] 304 [138] 314 [142] 100 75 260 236 137 125 84 MT2 442 [201] 516 [235] 323 [147] MT2-E 414 [188] 125 90 323 294 170 156 104 468 [213] MT3-E 542 [246] MT2 345 [156] 434 [197] 150 110 388 353 204 187 125 553 [251] 627 [285] 365 [166] MT3-E 469 [213] 200 150 274 250 168 415 [189] 514 [234] 250 185 340 312 209 MT3 578 [262] MT4-E 600 [273] 300 200 410 374 251 585 [266] 670 [305] 350 250 475 436 292 MT4 800 [363] 1006 [456] 400 315 565 520 349 825 [374] LT1-E 1031 [467] 500 400 720 660 443 915 [415] 1121 [508] 600 450 810 740 499 LT1 1098 [499] LT2-E 1176 [535] 700 500 940 865 579 1700 [771] 1839 [834] 800 560 1075 985 662 LT2 1882 [854] 1954 [886] 900 630 1200 1100 736 1920 [871] LT3-E 2054 [931] 1000 710 1335 1220 818 1950 [884] 2084 [945] 1100 800 1470 1340 900 2465 [1118] 2564 [1163] 1200 900 1610 1470 987 LT3 2568 [1167] 2958 [1245] 1300 970 1735 1585 1064 2718 [1236] 3408 [1549] 1400 1000 1870 1710 1145 2858 [1299] HT2-E 3548 [1613] 1500 1120 2000 1835 1228 3598 [1635] 3690 [1677] 1600 1200 2145 1965 1316 3748 [1703] 3840 [1745] 1800 1350 2410 2210 1481 HT2 3848 [1749] 4376 [1943] 2000 1450 2670 2440 1636 3978 [1808] 4506 [2048] 2300 1700 3065 2810 1882 4075 [1850] HT3-E 4600 [2088] 2500 1850 3335 3050 2045 4650 [2111] 4750 [2157] 2800 2100 3750 3435 2303 HT3 5000 [2270] 5100 [2315] 3000 2250 4020 3680 2468 5225 [2372] 3500 2600 4265 3905 2618 5550 [2520] Motor Size Lineator Rating 480V (60Hz), 600V / 690V (50Hz) 600V / 690V (60Hz) Input Amps (3-Phase) Standard Enclosure Enhanced Enclosure Standard Enclosure Enhanced Enclosure HP kw 460/480V 575/600V 660/690V Output Case Weight Case Weight Case Weight Case Weight kw Style lbs [kg] Style lbs [kg] Style lbs [kg] Style lbs [kg] 5 4 7 5 5 4.5 58 [26] 68 [31] 57 [26] 67 [30] 7.5 5.5 9 7 6 6.3 SU1 67 [30] SU1-E 77 [35] 67 [30] SU1-E 77 [35] 10 7.5 12 10 8 8.5 78 [35] 88 [40] SU1 77 [35] 87 [39] 15 11 17 14 12 13 90 [41] 100 [45] 86 [39] 96 [44] 20 15 23 18 16 17 118 [54] 128 [58] 98 [45] 128 [58] 25 18.5 29 23 20 21 130 [59] SU2-E 140 [64] 125 [57] SU2-E 135 [61] 30 22 34 28 24 25 SU2 142 [65] 152 [69] 137 [62] 147 [67] 40 30 46 37 32 34 154 [70] 164 [74] SU2 149 [68] 159 [72] 50 37.5 57 45 40 42 186 [84] 196 [89] 184 [83] 196 [89] 60 45 69 55 48 51 218 [99] SU3-E 228 [103] 206 [94] SU3-E 216 [98] 75 55 85 68 59 63 SU3 304 [138] 314 [142] 298 [135] 308 [140] 100 75 113 90 79 84 323 [147] 333 [151] SU3 315 [143] 325 [147] 125 90 141 112 98 104 345 [156] MT2-E 419 [191] 345 [156] MT2-E 419 [191] 150 110 169 135 118 125 MT2 365 [166] 439 [200] MT2 365 [166] 439 [200] 200 150 226 180 158 168 415 [189] MT3-E 489 [222] 415 [189] MT3-E 489 [222] 250 185 281 225 196 209 MT3 578 [262] 640 [290] MT3 578 [262] 640 [290] 300 200 337 270 235 251 585 [266] MT4-E 695 [316] 585 [266] MT4-E 695 [316] 350 250 395 315 275 292 800 [363] 1006 [456] 780 [354] 1006 [456] 400 315 470 375 325 349 MT4 825 [374] 1031 [467] MT4 805 [365] 1031 [467] 500 400 595 475 415 443 915 [415] LT1-E 1121 [508] 915 [415] LT1-E 1121 [510] 600 450 670 535 470 499 LT1 1398 [634] 1476 [ 670] LT1 1398 [634] 1476 [670] 700 500 780 625 545 579 1700 [771] LT2-E 1839 [834] 1650 [748] LT2-E 1740 [789] 800 560 890 715 620 662 1882 [854] 1954 [886] 1805 [819] 1852 [842] 900 630 990 795 690 736 LT2 1920 [871] 2054 [931] LT2 1882 [854] 2054 [932] 1000 710 1100 880 770 818 1950 [884] LT3-E 2084 [945] 1915 [869] LT3-E 2064 [936] 1100 800 1210 970 845 900 2465 [1118] 2564 [1163] 2331 [1057] 2515 [1141] 1200 900 1330 1060 925 987 LT3 2568 [1167] 2958 [1245] LT3 2465 [1121] 2855 [1298] 1300 970 1430 1145 1000 1064 2718 [1236] 3408 [1549] 2609 [1186] 2999 [1363] 1400 1000 1540 1235 1075 1145 2858 [1299] HT2-E 3548 [1613] 2782 [1265] HT2-E 3172 [1442] 1500 1120 1650 1325 1155 1228 3598 [1635] 3690 [1677] 3540 [1606] 3620 [1642] 1600 1200 1770 1415 1235 1316 3748 [1703] 3840 [1745] 3702 [1679] 3800 [1724] 1800 1350 1990 1595 1390 1481 HT2 3848 [1749] 4376 [1943] HT2 3798 [1723] 3875 [1758] 2000 1450 2200 1765 1535 1636 3978 [1808] 4506 [2048] 3945 [1789] 4250 [1928] 2300 1700 2530 2030 1765 1882 4075 [1850] HT3-E 4600 [2088] 4015 [1821] HT3-E 4340 [1969] 2500 1850 2755 2205 1920 2045 4650 [2111] 4750 [2157] 4600 [2087] 4750 [2155] 2800 2100 3100 2480 2160 2303 HT3 5000 [2270] 5100 [2315] HT3 4945 [2243] 5100 [2313] 3000 2250 3320 2660 2315 2468 5225 [2372] 5180 [2350] 3500 2600 3855 3085 2685 2618 5550 [2520] 5490 [2490] 1. For type T Lineator use enclosure and weights from the next size up.

A1 B1 C1 A2 B2 C2 imensions B C H B C H B C A G A 7.75 2.25 G A E F E F 3.5 E 1.00 TYP. F 1.00 TYP. FRONT VIEW RIGHT SIE VIEW BACK VIEW SU ENCLOSURE FRONT VIEW RIGHT SIE VIEW BACK VIEW MT1, MT2 ENCLOSURE FRONT VIEW RIGHT SIE VIEW MT3, MT4, LT ENCLOSURE B C A1 B1 C1 A2 B2 C2 A1 B1 C1 A2 B2 C2 A3 B3 C3 A3 B3 C3 A A3 B3 C3 E 6.50 F Typ. FRONT VIEW RIGHT SIE VIEW FRONT VIEW RIGHT SIE VIEW FRONT VIEW RIGHT SIE VIEW FRONT VIEW CAPACITOR BOAR (Supplied loose) HT ENCLOSURE E0P PANEL MOUNT E0 OPEN STYLE E0M MOULAR CASE STYLE IMENSIONS - inches [mm] Standard Enhanced A B C E F G H SU1 SU1-E 23.50 [597] 11.25 [286] 8.75 [222] 11.25 [286] 8.00 [203] 9.00 [229] 13.00 [330] 9.00 [229] SU2 SU2-E 29.50 [749] 13.25 [336] 10.25 [260] 12.75 [324] 9.00 [229] 10.00 [254] 19.00 [483] 11.00 [279] SU3 SU3-E 34.00 [864] 20.25 [514] 13.25 [336] 16.00 [406] 17.50 [445] 13.00 [330] 20.00 [508] 18.00 [457] MT2 MT2-E 38.00 [965] 21.50 [546] 19.50 [495] 23.50 [597] 17.00 [432] 17.50 [445] 25.00 [635] MT3 MT3-E 45.00 [1143] 26.00 [661] 21.00 [534] 25.00 [635] 21.50 [546] 19.00 [483] MT4 MT4-E 51.50 [1308] 32.00 [813] 25.50 [648] 29.50 [749] 23.50 [597] 23.50 [597] LT1 LT1-E 59.00 [1499] 39.50 [1003] 30.00 [762] 34.00 [864] 24.00 [610] 32.00 [813] LT2 LT2-E 66.00 [1677] 44.00 [1118] 34.00 [864] 38.00 [965] 26.00 [660] 36.00 [915] LT3 LT3-E 75.00 [1905] 48.50 [1232] 39.00 [991] 43.00 [1092] 27.50 [699] 41.00 [1041] HT2 HT2-E 78.00 [1981] 58.50 [1486] 51.00 [1295] 56.25 [1428] 52.50 [1333] 50.75 [1289] HT3 HT3-E 84.00 [2134] 68.50 [1740] 59.00 [1499] 64.50 [1638] 62.50 [1587] 58.75 [1492] Ordering Information Model Motor Horsepower Line Voltage Frequency Load Type Enclosure Type Optional AUHF HP VVV Hz L En O Advanced Universal Harmonic Filter - - - - - - 5 to 3500 208 240 400 440 480 600 690 (VAC) 50 60 1. type AUHF is suitable for standard diode bridge and diode/scr precharged front-end VS s. 2. T type AUHF is suitable for C drives, Current Source Inverters and other controlled rectifier loads. [1] iode Bridge Rectifier [2] T Thyristor Bridge Rectifier E0 No Enclosure (250 to 3500HP) EOP Panel Mount (5 to 200HP) EOM Modular (250 to 3500HP) E1 Nema 3R [IP23] Ventilated (5 to 3500HP) E Nema 3R [IP23] Enhanced

Expect better. Call us. To discuss how MIRUS can help you meet your power quality challenges, contact us at our head office: MIRUS International Inc. 6805 Invader Cres., Unit #12 Mississauga, Ontario Canada L5T 2K6 Tel: (905) 565-6900 Fax: (905) 565-6911 Toll-Free: 1-888-TO MIRUS (888-866-4787) www.mirusinternational.com R International Inc. Harmonic and Energy Solutions Real-world performance for real-world loads. R AUHF-PS01-A Effective: August 2007 C Mirus International Inc. All specifications subject to change without notice.